Computational design of mechanical metamaterials

IF 12 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Nature computational science Pub Date : 2024-08-27 DOI:10.1038/s43588-024-00672-x
Silvia Bonfanti, Stefan Hiemer, Raja Zulkarnain, Roberto Guerra, Michael Zaiser, Stefano Zapperi
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Abstract

In the past few years, design of mechanical metamaterials has been empowered by computational tools that have allowed the community to overcome limitations of human intuition. By leveraging efficient optimization algorithms and computational physics models, it is now possible to explore vast design spaces, achieving new material functionalities with unprecedented performance. Here, we present our viewpoint on the state of the art of computational metamaterials design, discussing recent advances in topology optimization and machine learning design with respect to challenges in additive manufacturing. Computational tools have recently empowered mechanical metamaterials design. In this Perspective, advances to these approaches are discussed, notably mechanism-based design, topology optimization, the use of machine learning and the challenges for additive-manufactured metamaterial structures.

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机械超材料的计算设计。
在过去的几年里,机械超材料的设计借助计算工具得到了极大的发展,从而克服了人类直觉的局限性。通过利用高效的优化算法和计算物理模型,现在可以探索广阔的设计空间,以前所未有的性能实现新材料的功能。在此,我们将介绍我们对计算超材料设计技术现状的看法,讨论拓扑优化和机器学习设计在应对增材制造挑战方面的最新进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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